Effects of thermal expansion on Taylor dispersion-controlled diffusion flames

A theoretical analysis is developed to investigate the effects of gas expansion due to heat release on unsteady diffusion flames evolving in a pipe flow in which the mixing of reactants is controlled by Taylor's dispersion processes thereby extending a previously developed theory based on the t...

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Veröffentlicht in:	Combustion theory and modelling 2022-01, Vol.26 (1), p.50-66
Hauptverfasser:	Rajamanickam, Prabakaran, Weiss, Adam D.
Format:	Artikel
Sprache:	eng
Schlagworte:	Burke-Schumann flame Diffusion Diffusion flames Dispersion Gas density Gas expansion non-unity Lewis number Pipe flow Poiseuille flow Taylor dispersion Thermal expansion Velocity distribution
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container_title	Combustion theory and modelling
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creator	Rajamanickam, Prabakaran Weiss, Adam D.
description	A theoretical analysis is developed to investigate the effects of gas expansion due to heat release on unsteady diffusion flames evolving in a pipe flow in which the mixing of reactants is controlled by Taylor's dispersion processes thereby extending a previously developed theory based on the thermo-diffusive model. It is first shown that at times larger than radial diffusion times, the pressure gradient induced by the gas expansion is, in the first approximation, small in comparison with the prevailing pressure gradient driving the flow, indicating that corrections to the background velocity profile are small. The corrections to the velocity components along with the leading-order mixing variables such as the concentrations, temperature and density are solved for a Burke-Schumann flame. Due to the dependence of the effective Taylor diffusion coefficients on the gas density, quantitative and sometimes qualitative departures in predictions from the thermo-diffusive model are observed.
doi_str_mv	10.1080/13647830.2021.1985618
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source	Taylor & Francis Journals Complete
subjects	Burke-Schumann flame Diffusion Diffusion flames Dispersion Gas density Gas expansion non-unity Lewis number Pipe flow Poiseuille flow Taylor dispersion Thermal expansion Velocity distribution
title	Effects of thermal expansion on Taylor dispersion-controlled diffusion flames
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